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Hauptverfasser: Alessi, Carlo, Agabiti, Camilla, Caradonna, Daniele, Laschi, Cecilia, Renda, Federico, Falotico, Egidio
Format: Preprint
Veröffentlicht: 2024
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2407.05886
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author Alessi, Carlo
Agabiti, Camilla
Caradonna, Daniele
Laschi, Cecilia
Renda, Federico
Falotico, Egidio
author_facet Alessi, Carlo
Agabiti, Camilla
Caradonna, Daniele
Laschi, Cecilia
Renda, Federico
Falotico, Egidio
contents Continuum and soft robots can transform diverse sectors, including healthcare, agriculture, marine, and space, thanks to their potential to adaptively interact with unstructured environments. These robots exhibit complex mechanics that pose diverse challenges in modeling and control. Among various models, continuum mechanical models based on rod theories can effectively capture the deformations of slender bodies in contact-rich scenarios. This structured review paper focuses on the role of rod models in continuum and soft robot control with a vertical approach. We provide a comprehensive summary of the mathematical background underlying the four main rod theories applied in soft robotics and their variants. Then, we review the literature on rod models applied to continuum and soft robots, providing a novel categorization in deformation classes. Finally, we survey recent model-based and learning-based control strategies leveraging rod models, highlighting their potential in real-world manipulation. We critically discuss the trends, advantages, limitations, research gaps, and possible future developments of rod models. This paper aims to guide researchers who intend to simulate and control new soft robots while providing feedback to the design and manufacturing community.
format Preprint
id arxiv_https___arxiv_org_abs_2407_05886
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Rod models in continuum and soft robot control: a review
Alessi, Carlo
Agabiti, Camilla
Caradonna, Daniele
Laschi, Cecilia
Renda, Federico
Falotico, Egidio
Robotics
Continuum and soft robots can transform diverse sectors, including healthcare, agriculture, marine, and space, thanks to their potential to adaptively interact with unstructured environments. These robots exhibit complex mechanics that pose diverse challenges in modeling and control. Among various models, continuum mechanical models based on rod theories can effectively capture the deformations of slender bodies in contact-rich scenarios. This structured review paper focuses on the role of rod models in continuum and soft robot control with a vertical approach. We provide a comprehensive summary of the mathematical background underlying the four main rod theories applied in soft robotics and their variants. Then, we review the literature on rod models applied to continuum and soft robots, providing a novel categorization in deformation classes. Finally, we survey recent model-based and learning-based control strategies leveraging rod models, highlighting their potential in real-world manipulation. We critically discuss the trends, advantages, limitations, research gaps, and possible future developments of rod models. This paper aims to guide researchers who intend to simulate and control new soft robots while providing feedback to the design and manufacturing community.
title Rod models in continuum and soft robot control: a review
topic Robotics
url https://arxiv.org/abs/2407.05886